Objective To study the past, present and future of bone grafting. Methods Related l iterature on bone grafting in recent years was extensively reviewed. Results Bone grafting had a history over 300 years, a variety of bone grafting candidates including autografting, allografting, xenografting, synthetic and composite bone grafting had been util ized in cl inical orthopedics at present. But bone autografting and allografting represented the preferred alternatives for bone grafting.It would be important trend in bone grafting to fulfill the optimizing design of biomaterials and constructing composite bone substitutes with cells, factors and scaffolds. Conclusion The future bone grafting might be focused on how to achieve the goal of the rapid osseointegration as well as the physiological bone reconstruction.
To introduce the lasted advance of research on cytokine in the process of union-fracture as well as cl inical appl ication. Methods The related biomedical research materials at home and broad were consulted and analyzed.Results Cytokines participate in and promote the process of union of fracture. Conclusion Nowadays, there are more detailed study at the level of cells. But the mechanism of interaction between cells has still not completely been known in the process of union-fracture. Therefore, further elucidating function and mechanism, especially interaction between cytokines is what we are gong to solve in the future.
Objective To sum up the recent progress of common bone graft substitute and to forecast the possible directions for further research. Methods Recent original articles about investigation and appl ication for bone graft substitute were extensively reviewed. Several common bone graft substitutes were selected and expounded in different categories. Results Bone graft was an essential treatment in order to provide structural support, fill bone cavity and promote bone defect heal ing. The gold standard for bone graft was autograft which is subject to many restrictions. In recent years, theresearch and development of bone graft substitute have received publ ic attention. A very great progress has been made in the research and appl ication of allograft bones, synthetic bones and engineered bones, and some research results have been put into use for real products. Conclusion There still exist many problems in present bone graft substitutes. Combining various biomaterials and using the specific processing technology to develop a biomaterial which has the similar mechanical and chemical properties and physical structures to autograft so as to promote bone defect heal ing is the direction for future research.
Objective To explore the clinical application of allogeneic bone transplantation. Methods Related literatures on clinical application of various allograft bone materials of the past 5 years were extensively reviewed. Results The allografts could be processed into various kinds of transplanting materials, such as small blocks, large segments, morselised or granular material, and bone ring, so that they could be applied to bone defect filling, prosthesis revision, limb preservation after tumor resection, and joint fusion. All these applications ended up with good clinical results. However, complications resulted in thestructural transplantation of large block bones could be overlooked. Conclusion The main advantage of bone allograft is that it can be integrated with host bone and be remodelled, so as to reconstruct bone structure and function. How to accelerate their integration and remodelling while exerting normal functions is the problem that requires solution.
Objective To evaluate the relevant factors affecting prognosis of traumatic optic neuropathy. Methods Sixty-nine patients with traumatic optic neuropathy were enrolled. Multiple variable analysis was done to filter the risk factors to prognosis in traumatic optic neuropathy. Results At 3 months or more of followup,no light perception was found in 32 cases (46.4%); visual acuity were increased by≥1 lines in 33 cases (47.8%). The outcome of visual acuity was poorer in patients with the following conditions:no light perception after trauma (P=0.0031), loss of consciousness (P=0.0262), no pretreated common-dosage corticosteroids (P=0.0184), and absence of VEP (P=0.0001). Conclusion The initial visual acuity of no light perception, loss of consciousness, and no pretreated common-dosage corticosteroids were the risk factors to prognosis in traumatic optic neuropathy,and result of VEP was an effective prognosis indicator in traumatic optic neuropathy. (Chin J Ocul Fundus Dis, 2002, 18: 98-100)
Objective To explore the feasibility of single mediastinal drainage tube in treatment of esophageal carcinoma after thoracoscopic combined with laparoscopic surgery. Methods There were 90 esophagus cancer patients treated by surgery in our hospital between June 2015 and October 2016. The patients were allocated into two groups including a single-drainage tube group and a two-drainage tube group. There were 45 patients with 24 males and 21 females at age of 48-78 years in the two-drainage tube group and 45 patients with 23 males and 22 females at age of 45-84 years in the single-drainage tube group.The clinical effect of the two groups was compared. Results There was no statistical difference in gender and age, bleeding amount and surgical duration in operation, thoracic drainage amount, incidence of atelectasis, pneumothorax, and encapsulated effusion between the two groups(P<0.05). Discussion Single-drainage tube group displays less postoperative pain, faster recovery, and more convenient clinical care without complication.
Objective To review the research progress of promoting the bone formation at early stage by components of the extracellular matrix (ECM). Methods Recent literature concerning the influence of these components on new bone formation and bone/implant contact was extensively reviewed and summarized. Results Coating of titanium or hydroxyapatite implants with organic components of the ECM (such as collagen type I, chondroitin sulfate, and Arg-Gly-Asp peptide) offers great potential to improve new bone formation and enhance bone/implant contact, which in turn will shorten recovery time and improve implant stability. Conclusion The increasing knowledge about the role of the ECM for recruitment, proliferation, differentiation of cells, and regeneration of tissue will eventually deal to the creating of an artificial ECM on the implant that could allow a defined adjustment of the required properties to support the healing process.
【Abstract】 Objective To review the progress in the treatment of bone defect by porous tantalum implant. Methods Recent l iterature was extensively reviewed and summarized, concerning the treatment method of bonedefect by porous tantalum implant. Results By right of their unique properties, porous tantalum implants have achievedvery good results in the treatment of certain types of bone defects. Conclusion Porous tantalum implants have their ownadvantages and disadvantages. If the case is meet to its indications, this method can obtain a good effect. Porous tantalum implants provide a new way for the cl inical treatment of bone defects.